We describe two signaling events downstream of ERK-MAP kinase contributing to cell motility in colon carcinoma cells. The Fos family member Fra-1 is expressed in an ERK-dependent manner. Silencing of Fra-1 expression with short interfering RNAs leads to losses of cell polarization, motility, and invasiveness in vitro. These effects of ablating Fra-1 are a consequence of activation of a RhoA-ROCK pathway by beta1-integrin, leading to an increase in the amount of stress fibers and stabilization of focal adhesions. We propose that Fra-1 promotes cell motility by inactivating beta1-integrin and keeping RhoA activity low. This depression of RhoA activity is necessary to permit a second ERK-dependent signaling event via uPAR, the receptor for urokinase-type plasminogen activator, to activate Rac and to drive motility through polarized lamellipodia extension.
Rho GTPases participate in various cellular processes, including normal and tumor cell migration. It has been reported that RhoA is targeted for degradation at the leading edge of migrating cells by the E3 ubiquitin ligase Smurf1, and that this is required for the formation of protrusions. We report that Smurf1-dependent RhoA degradation in tumor cells results in the down-regulation of Rho kinase (ROCK) activity and myosin light chain 2 (MLC2) phosphorylation at the cell periphery. The localized inhibition of contractile forces is necessary for the formation of lamellipodia and for tumor cell motility in 2D tissue culture assays. In 3D invasion assays, and in in vivo tumor cell migration, the inhibition of Smurf1 induces a mesenchymal–amoeboid–like transition that is associated with a more invasive phenotype. Our results suggest that Smurf1 is a pivotal regulator of tumor cell movement through its regulation of RhoA signaling.
The AP-1 (activator protein-1) complex, which consists of proteins of the Fos and Jun families, is thought to play an important role in the balance between cell proliferation and apoptosis, the response to genotoxic stress and cell transformation. In cells containing oncogenic Ras, the major components of AP-1 are Fra-1 and c-Jun. Signalling from Ras to AP-1 is through the Raf/MEK[mitogen-activated protein (MAP) kinase kinase]/ERK (extracellular signal-regulated kinase) MAP kinase pathway as sustained activation of Raf1 or Mek1 modifies AP-1 composition and activity. To analyse the potential link between the ERK-MAPK pathway and AP-1 in colon cancer, in which RAS and BRAF mutations are frequent, we have studied the regulation of AP-1 in colon carcinoma cell lines. We show that c-JUN and FRA-1 expression is dependent on ERK activity and that different thresholds of ERK activity control the expression of FRA-1. A basal activity is required to induce transcription of the FRA-1 gene, but additional higher levels of activity stabilize FRA-1 against proteasome-dependent degradation. These results provide a clear-cut example that the magnitude of ERK signalling affects the cellular response. Although we find no contribution of FRA-1 towards cell proliferation of adherent tumour cells, the high levels of FRA-1 in cells where elevated ERK activity leads to protein stabilization provide survival signals for tumour cells removed from the extracellular matrix.
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